Elements of language
phonemes
morphemes
words
sentences
syntax
semantics
smalles significant units of speech
smallest units of meaning in a language
Complexity and flexibility of language
limited set of words can be combined to express an unlimited number of concepts / ideas
structure of language supports generativity
Neural bases of speech perception
activation in auditory cortex for words, tones, white noise but overlap
encoding of phonetic features in superior temporal cortex
brain activation
intelligible(understandable) speech —> inferior parts
semantic analysis?
syntactic processing?
not understandble —> superior parts
the segmentation problem
word onsets not clearly alighned to boundaries in physical speech signal
words can be spoken differently
robustness against differences in voice, tone, pronounciation, contextual noise
entrainment of auditory brain systems to speech signal
speech follows certain pattern that is characterized by certain frequency
picked up by brain activity
classical language areas
STG -> superior temporal gyrus includes part of wernickes area -> language comprehension
IFG -> inferior frontal gyrus -> Brocas area
MTG -> middle temporal gyrus -> semantic processing
TP temporal pole -> anterior part of temporal lobe -> semantic memory, complex stimuli
Area 8 Frontal eye fields -> prefrontal cortexvisual attention
Function of Wernickes area
unclear since activated in
story in tamil
pseudo words
semantically anamalous sentences
story in french
Psycholinguistic models of language - Garden Path model
Garden Path Model
minimal attachment principle: noun phrase, verb, noun phrase, the second noun phrase will be interpreted as the direct object
while the man hunted the deer ran into the woods
requires reanalysis
Studying sentence processing
judgment tasks
self-paced reading
cross-modal priming
eye-tracking
neurocognitive methods
grammaticality judgment
comprehension questions
neurocognitive methods in sentence processing studies
ERP
fMRI
1st electrophysiological study of sentence processing
three sentences with different endings
unexpected last word
spread the warm bread with socks
highest negative activation
expected word
high heeled shoes
highest positive activation
bad prediction possible
first day at work
slightly positive activation
electrophysiology : semantics study
three types of sentences
correct
world knowledge violation
semantic violation
n400 effect for both violations
why use violation paradigms to study semantics
to be able to define different processing stages
provoking an effort when expectations are violated
idea is identifying the time point when certain information is processed
defining different processing stages
n400 effect
graded response to predictability of last word
= degree of expectancy
difficulty of integrating a new element into previous context
electrophysiology: syntactic processing
ELAN (early left anterior negativity)
early processes of rule based sentence processing
word category identification
before 200 ms post-onset (after incorrect stimulus)
negative deflection
syntactic repair processes
a late ERP positivity p600
probably reflects repair of ungrammatical sentences
and/or reanalysis of ambiguous sentences
neurocognitive model of the temporal dynamics of syntactiv and semantic aspects of sentence processing
1- ELAN - early phrase-structure building
2- N400 - lexical semantic integration
3- P600 - re-analysis
neural bases - semantic violation effects
expected
unexpected
anomalous
pseudowords
unexpected -> more BOLD signal change
pseudoword
Brocas aphasics
neurolinguistic studies in the 70s and 80s
brocas aphasics have problems with
speech production
processing of syntactic structures —> agrammatism
studies: the more complex the sentence, the more activation in brocas area (pars opercularis of left inferior frontal gyrus
neural bases of syntax - constituent structures of sentences
hypothesis: neural assembly = constituent
constituent size is approximately indexed by the number of words
but: temporal areas integrate structural complexity and semantic processing
IFG areas respond to structural complexity as such
anterior to pars opercularis
spoken speech processed by
brain regions of temporal lobe
how to map temporal dynamics of higher processes of sentence comprehension
ERPs —> relative timing of syntactic vs. semantic processing stages
ELAN
N400
P600
lexical semantic integration processes are implemented —-
in vicinity of wernickes area
but semantic representations may be more widespread in the human brain
Last changed3 months ago